// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/compiler/common-operator.h" #include "src/compiler/graph.h" #include "src/compiler/machine-operator.h" #include "src/compiler/node.h" #include "src/compiler/node-matchers.h" #include "src/compiler/opcodes.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/test-utils.h" namespace v8 { namespace internal { namespace compiler { class NodeMatcherTest : public GraphTest { public: NodeMatcherTest() : machine_(zone()) {} ~NodeMatcherTest() override {} MachineOperatorBuilder* machine() { return &machine_; } private: MachineOperatorBuilder machine_; }; namespace { template <class Matcher> void CheckBaseWithIndexAndDisplacement(Matcher* matcher, Node* index, int scale, Node* base, Node* displacement) { EXPECT_TRUE(matcher->matches()); EXPECT_EQ(index, matcher->index()); EXPECT_EQ(scale, matcher->scale()); EXPECT_EQ(base, matcher->base()); EXPECT_EQ(displacement, matcher->displacement()); } } // namespace TEST_F(NodeMatcherTest, ScaledWithOffset32Matcher) { graph()->SetStart(graph()->NewNode(common()->Start(0))); const Operator* d0_op = common()->Int32Constant(0); Node* d0 = graph()->NewNode(d0_op); USE(d0); const Operator* d1_op = common()->Int32Constant(1); Node* d1 = graph()->NewNode(d1_op); USE(d1); const Operator* d2_op = common()->Int32Constant(2); Node* d2 = graph()->NewNode(d2_op); USE(d2); const Operator* d3_op = common()->Int32Constant(3); Node* d3 = graph()->NewNode(d3_op); USE(d3); const Operator* d4_op = common()->Int32Constant(4); Node* d4 = graph()->NewNode(d4_op); USE(d4); const Operator* d5_op = common()->Int32Constant(5); Node* d5 = graph()->NewNode(d5_op); USE(d5); const Operator* d7_op = common()->Int32Constant(7); Node* d7 = graph()->NewNode(d7_op); USE(d4); const Operator* d8_op = common()->Int32Constant(8); Node* d8 = graph()->NewNode(d8_op); USE(d8); const Operator* d9_op = common()->Int32Constant(9); Node* d9 = graph()->NewNode(d9_op); USE(d9); const Operator* d15_op = common()->Int32Constant(15); Node* d15 = graph()->NewNode(d15_op); USE(d15); const Operator* b0_op = common()->Parameter(0); Node* b0 = graph()->NewNode(b0_op, graph()->start()); USE(b0); const Operator* b1_op = common()->Parameter(1); Node* b1 = graph()->NewNode(b1_op, graph()->start()); USE(b0); const Operator* p1_op = common()->Parameter(3); Node* p1 = graph()->NewNode(p1_op, graph()->start()); USE(p1); const Operator* a_op = machine()->Int32Add(); USE(a_op); const Operator* m_op = machine()->Int32Mul(); Node* m1 = graph()->NewNode(m_op, p1, d1); Node* m2 = graph()->NewNode(m_op, p1, d2); Node* m3 = graph()->NewNode(m_op, p1, d3); Node* m4 = graph()->NewNode(m_op, p1, d4); Node* m5 = graph()->NewNode(m_op, p1, d5); Node* m7 = graph()->NewNode(m_op, p1, d7); Node* m8 = graph()->NewNode(m_op, p1, d8); Node* m9 = graph()->NewNode(m_op, p1, d9); USE(m1); USE(m2); USE(m3); USE(m4); USE(m5); USE(m7); USE(m8); USE(m9); const Operator* s_op = machine()->Word32Shl(); Node* s0 = graph()->NewNode(s_op, p1, d0); Node* s1 = graph()->NewNode(s_op, p1, d1); Node* s2 = graph()->NewNode(s_op, p1, d2); Node* s3 = graph()->NewNode(s_op, p1, d3); Node* s4 = graph()->NewNode(s_op, p1, d4); USE(s0); USE(s1); USE(s2); USE(s3); USE(s4); // 1 INPUT // Only relevant test dases is Checking for non-match. BaseWithIndexAndDisplacement32Matcher match0(d15); EXPECT_FALSE(match0.matches()); // 2 INPUT // (B0 + B1) -> [B0, 0, B1, NULL] BaseWithIndexAndDisplacement32Matcher match1(graph()->NewNode(a_op, b0, b1)); CheckBaseWithIndexAndDisplacement(&match1, b1, 0, b0, NULL); // (B0 + D15) -> [NULL, 0, B0, D15] BaseWithIndexAndDisplacement32Matcher match2(graph()->NewNode(a_op, b0, d15)); CheckBaseWithIndexAndDisplacement(&match2, NULL, 0, b0, d15); // (D15 + B0) -> [NULL, 0, B0, D15] BaseWithIndexAndDisplacement32Matcher match3(graph()->NewNode(a_op, d15, b0)); CheckBaseWithIndexAndDisplacement(&match3, NULL, 0, b0, d15); // (B0 + M1) -> [p1, 0, B0, NULL] BaseWithIndexAndDisplacement32Matcher match4(graph()->NewNode(a_op, b0, m1)); CheckBaseWithIndexAndDisplacement(&match4, p1, 0, b0, NULL); // (M1 + B0) -> [p1, 0, B0, NULL] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match5(graph()->NewNode(a_op, m1, b0)); CheckBaseWithIndexAndDisplacement(&match5, p1, 0, b0, NULL); // (D15 + M1) -> [P1, 0, NULL, D15] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match6(graph()->NewNode(a_op, d15, m1)); CheckBaseWithIndexAndDisplacement(&match6, p1, 0, NULL, d15); // (M1 + D15) -> [P1, 0, NULL, D15] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match7(graph()->NewNode(a_op, m1, d15)); CheckBaseWithIndexAndDisplacement(&match7, p1, 0, NULL, d15); // (B0 + S0) -> [p1, 0, B0, NULL] BaseWithIndexAndDisplacement32Matcher match8(graph()->NewNode(a_op, b0, s0)); CheckBaseWithIndexAndDisplacement(&match8, p1, 0, b0, NULL); // (S0 + B0) -> [p1, 0, B0, NULL] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement32Matcher match9(graph()->NewNode(a_op, s0, b0)); CheckBaseWithIndexAndDisplacement(&match9, p1, 0, b0, NULL); // (D15 + S0) -> [P1, 0, NULL, D15] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement32Matcher match10( graph()->NewNode(a_op, d15, s0)); CheckBaseWithIndexAndDisplacement(&match10, p1, 0, NULL, d15); // (S0 + D15) -> [P1, 0, NULL, D15] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement32Matcher match11( graph()->NewNode(a_op, s0, d15)); CheckBaseWithIndexAndDisplacement(&match11, p1, 0, NULL, d15); // (B0 + M2) -> [p1, 1, B0, NULL] BaseWithIndexAndDisplacement32Matcher match12(graph()->NewNode(a_op, b0, m2)); CheckBaseWithIndexAndDisplacement(&match12, p1, 1, b0, NULL); // (M2 + B0) -> [p1, 1, B0, NULL] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match13(graph()->NewNode(a_op, m2, b0)); CheckBaseWithIndexAndDisplacement(&match13, p1, 1, b0, NULL); // (D15 + M2) -> [P1, 1, NULL, D15] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match14( graph()->NewNode(a_op, d15, m2)); CheckBaseWithIndexAndDisplacement(&match14, p1, 1, NULL, d15); // (M2 + D15) -> [P1, 1, NULL, D15] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match15( graph()->NewNode(a_op, m2, d15)); CheckBaseWithIndexAndDisplacement(&match15, p1, 1, NULL, d15); // (B0 + S1) -> [p1, 1, B0, NULL] BaseWithIndexAndDisplacement32Matcher match16(graph()->NewNode(a_op, b0, s1)); CheckBaseWithIndexAndDisplacement(&match16, p1, 1, b0, NULL); // (S1 + B0) -> [p1, 1, B0, NULL] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match17(graph()->NewNode(a_op, s1, b0)); CheckBaseWithIndexAndDisplacement(&match17, p1, 1, b0, NULL); // (D15 + S1) -> [P1, 1, NULL, D15] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match18( graph()->NewNode(a_op, d15, s1)); CheckBaseWithIndexAndDisplacement(&match18, p1, 1, NULL, d15); // (S1 + D15) -> [P1, 1, NULL, D15] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement32Matcher match19( graph()->NewNode(a_op, s1, d15)); CheckBaseWithIndexAndDisplacement(&match19, p1, 1, NULL, d15); // (B0 + M4) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement32Matcher match20(graph()->NewNode(a_op, b0, m4)); CheckBaseWithIndexAndDisplacement(&match20, p1, 2, b0, NULL); // (M4 + B0) -> [p1, 2, B0, NULL] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement32Matcher match21(graph()->NewNode(a_op, m4, b0)); CheckBaseWithIndexAndDisplacement(&match21, p1, 2, b0, NULL); // (D15 + M4) -> [p1, 2, NULL, D15] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement32Matcher match22( graph()->NewNode(a_op, d15, m4)); CheckBaseWithIndexAndDisplacement(&match22, p1, 2, NULL, d15); // (M4 + D15) -> [p1, 2, NULL, D15] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement32Matcher match23( graph()->NewNode(a_op, m4, d15)); CheckBaseWithIndexAndDisplacement(&match23, p1, 2, NULL, d15); // (B0 + S2) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement32Matcher match24(graph()->NewNode(a_op, b0, s2)); CheckBaseWithIndexAndDisplacement(&match24, p1, 2, b0, NULL); // (S2 + B0) -> [p1, 2, B0, NULL] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match25(graph()->NewNode(a_op, s2, b0)); CheckBaseWithIndexAndDisplacement(&match25, p1, 2, b0, NULL); // (D15 + S2) -> [p1, 2, NULL, D15] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match26( graph()->NewNode(a_op, d15, s2)); CheckBaseWithIndexAndDisplacement(&match26, p1, 2, NULL, d15); // (S2 + D15) -> [p1, 2, NULL, D15] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement32Matcher match27( graph()->NewNode(a_op, s2, d15)); CheckBaseWithIndexAndDisplacement(&match27, p1, 2, NULL, d15); // (B0 + M8) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement32Matcher match28(graph()->NewNode(a_op, b0, m8)); CheckBaseWithIndexAndDisplacement(&match28, p1, 3, b0, NULL); // (M8 + B0) -> [p1, 2, B0, NULL] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement32Matcher match29(graph()->NewNode(a_op, m8, b0)); CheckBaseWithIndexAndDisplacement(&match29, p1, 3, b0, NULL); // (D15 + M8) -> [p1, 2, NULL, D15] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement32Matcher match30( graph()->NewNode(a_op, d15, m8)); CheckBaseWithIndexAndDisplacement(&match30, p1, 3, NULL, d15); // (M8 + D15) -> [p1, 2, NULL, D15] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement32Matcher match31( graph()->NewNode(a_op, m8, d15)); CheckBaseWithIndexAndDisplacement(&match31, p1, 3, NULL, d15); // (B0 + S3) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement32Matcher match32(graph()->NewNode(a_op, b0, s3)); CheckBaseWithIndexAndDisplacement(&match32, p1, 3, b0, NULL); // (S3 + B0) -> [p1, 2, B0, NULL] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match33(graph()->NewNode(a_op, s3, b0)); CheckBaseWithIndexAndDisplacement(&match33, p1, 3, b0, NULL); // (D15 + S3) -> [p1, 2, NULL, D15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match34( graph()->NewNode(a_op, d15, s3)); CheckBaseWithIndexAndDisplacement(&match34, p1, 3, NULL, d15); // (S3 + D15) -> [p1, 2, NULL, D15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match35( graph()->NewNode(a_op, s3, d15)); CheckBaseWithIndexAndDisplacement(&match35, p1, 3, NULL, d15); // 2 INPUT - NEGATIVE CASES // (M3 + B1) -> [B0, 0, M3, NULL] BaseWithIndexAndDisplacement32Matcher match36(graph()->NewNode(a_op, b1, m3)); CheckBaseWithIndexAndDisplacement(&match36, m3, 0, b1, NULL); // (S4 + B1) -> [B0, 0, S4, NULL] BaseWithIndexAndDisplacement32Matcher match37(graph()->NewNode(a_op, b1, s4)); CheckBaseWithIndexAndDisplacement(&match37, s4, 0, b1, NULL); // 3 INPUT // (D15 + S3) + B0 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match38( graph()->NewNode(a_op, graph()->NewNode(a_op, d15, s3), b0)); CheckBaseWithIndexAndDisplacement(&match38, p1, 3, b0, d15); // (B0 + D15) + S3 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match39( graph()->NewNode(a_op, graph()->NewNode(a_op, b0, d15), s3)); CheckBaseWithIndexAndDisplacement(&match39, p1, 3, b0, d15); // (S3 + B0) + D15 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match40( graph()->NewNode(a_op, graph()->NewNode(a_op, s3, b0), d15)); CheckBaseWithIndexAndDisplacement(&match40, p1, 3, b0, d15); // D15 + (S3 + B0) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match41( graph()->NewNode(a_op, d15, graph()->NewNode(a_op, s3, b0))); CheckBaseWithIndexAndDisplacement(&match41, p1, 3, b0, d15); // B0 + (D15 + S3) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match42( graph()->NewNode(a_op, b0, graph()->NewNode(a_op, d15, s3))); CheckBaseWithIndexAndDisplacement(&match42, p1, 3, b0, d15); // S3 + (B0 + D15) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement32Matcher match43( graph()->NewNode(a_op, s3, graph()->NewNode(a_op, b0, d15))); CheckBaseWithIndexAndDisplacement(&match43, p1, 3, b0, d15); // Check that scales that require using the base address work dorrectly. } TEST_F(NodeMatcherTest, ScaledWithOffset64Matcher) { graph()->SetStart(graph()->NewNode(common()->Start(0))); const Operator* d0_op = common()->Int64Constant(0); Node* d0 = graph()->NewNode(d0_op); USE(d0); const Operator* d1_op = common()->Int64Constant(1); Node* d1 = graph()->NewNode(d1_op); USE(d1); const Operator* d2_op = common()->Int64Constant(2); Node* d2 = graph()->NewNode(d2_op); USE(d2); const Operator* d3_op = common()->Int64Constant(3); Node* d3 = graph()->NewNode(d3_op); USE(d3); const Operator* d4_op = common()->Int64Constant(4); Node* d4 = graph()->NewNode(d4_op); USE(d4); const Operator* d5_op = common()->Int64Constant(5); Node* d5 = graph()->NewNode(d5_op); USE(d5); const Operator* d7_op = common()->Int64Constant(7); Node* d7 = graph()->NewNode(d7_op); USE(d7); const Operator* d8_op = common()->Int64Constant(8); Node* d8 = graph()->NewNode(d8_op); USE(d8); const Operator* d9_op = common()->Int64Constant(9); Node* d9 = graph()->NewNode(d9_op); USE(d8); const Operator* d15_op = common()->Int64Constant(15); Node* d15 = graph()->NewNode(d15_op); USE(d15); const Operator* d15_32_op = common()->Int32Constant(15); Node* d15_32 = graph()->NewNode(d15_32_op); USE(d15_32); const Operator* b0_op = common()->Parameter(0); Node* b0 = graph()->NewNode(b0_op, graph()->start()); USE(b0); const Operator* b1_op = common()->Parameter(1); Node* b1 = graph()->NewNode(b1_op, graph()->start()); USE(b0); const Operator* p1_op = common()->Parameter(3); Node* p1 = graph()->NewNode(p1_op, graph()->start()); USE(p1); const Operator* a_op = machine()->Int64Add(); USE(a_op); const Operator* m_op = machine()->Int64Mul(); Node* m1 = graph()->NewNode(m_op, p1, d1); Node* m2 = graph()->NewNode(m_op, p1, d2); Node* m3 = graph()->NewNode(m_op, p1, d3); Node* m4 = graph()->NewNode(m_op, p1, d4); Node* m5 = graph()->NewNode(m_op, p1, d5); Node* m7 = graph()->NewNode(m_op, p1, d7); Node* m8 = graph()->NewNode(m_op, p1, d8); Node* m9 = graph()->NewNode(m_op, p1, d9); USE(m1); USE(m2); USE(m3); USE(m4); USE(m5); USE(m7); USE(m8); USE(m9); const Operator* s_op = machine()->Word64Shl(); Node* s0 = graph()->NewNode(s_op, p1, d0); Node* s1 = graph()->NewNode(s_op, p1, d1); Node* s2 = graph()->NewNode(s_op, p1, d2); Node* s3 = graph()->NewNode(s_op, p1, d3); Node* s4 = graph()->NewNode(s_op, p1, d4); USE(s0); USE(s1); USE(s2); USE(s3); USE(s4); // 1 INPUT // Only relevant test dases is Checking for non-match. BaseWithIndexAndDisplacement64Matcher match0(d15); EXPECT_FALSE(match0.matches()); // 2 INPUT // (B0 + B1) -> [B0, 0, B1, NULL] BaseWithIndexAndDisplacement64Matcher match1(graph()->NewNode(a_op, b0, b1)); CheckBaseWithIndexAndDisplacement(&match1, b1, 0, b0, NULL); // (B0 + D15) -> [NULL, 0, B0, D15] BaseWithIndexAndDisplacement64Matcher match2(graph()->NewNode(a_op, b0, d15)); CheckBaseWithIndexAndDisplacement(&match2, NULL, 0, b0, d15); BaseWithIndexAndDisplacement64Matcher match2_32( graph()->NewNode(a_op, b0, d15_32)); CheckBaseWithIndexAndDisplacement(&match2_32, NULL, 0, b0, d15_32); // (D15 + B0) -> [NULL, 0, B0, D15] BaseWithIndexAndDisplacement64Matcher match3(graph()->NewNode(a_op, d15, b0)); CheckBaseWithIndexAndDisplacement(&match3, NULL, 0, b0, d15); // (B0 + M1) -> [p1, 0, B0, NULL] BaseWithIndexAndDisplacement64Matcher match4(graph()->NewNode(a_op, b0, m1)); CheckBaseWithIndexAndDisplacement(&match4, p1, 0, b0, NULL); // (M1 + B0) -> [p1, 0, B0, NULL] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match5(graph()->NewNode(a_op, m1, b0)); CheckBaseWithIndexAndDisplacement(&match5, p1, 0, b0, NULL); // (D15 + M1) -> [P1, 0, NULL, D15] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match6(graph()->NewNode(a_op, d15, m1)); CheckBaseWithIndexAndDisplacement(&match6, p1, 0, NULL, d15); // (M1 + D15) -> [P1, 0, NULL, D15] m1 = graph()->NewNode(m_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match7(graph()->NewNode(a_op, m1, d15)); CheckBaseWithIndexAndDisplacement(&match7, p1, 0, NULL, d15); // (B0 + S0) -> [p1, 0, B0, NULL] BaseWithIndexAndDisplacement64Matcher match8(graph()->NewNode(a_op, b0, s0)); CheckBaseWithIndexAndDisplacement(&match8, p1, 0, b0, NULL); // (S0 + B0) -> [p1, 0, B0, NULL] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement64Matcher match9(graph()->NewNode(a_op, s0, b0)); CheckBaseWithIndexAndDisplacement(&match9, p1, 0, b0, NULL); // (D15 + S0) -> [P1, 0, NULL, D15] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement64Matcher match10( graph()->NewNode(a_op, d15, s0)); CheckBaseWithIndexAndDisplacement(&match10, p1, 0, NULL, d15); // (S0 + D15) -> [P1, 0, NULL, D15] s0 = graph()->NewNode(s_op, p1, d0); BaseWithIndexAndDisplacement64Matcher match11( graph()->NewNode(a_op, s0, d15)); CheckBaseWithIndexAndDisplacement(&match11, p1, 0, NULL, d15); // (B0 + M2) -> [p1, 1, B0, NULL] BaseWithIndexAndDisplacement64Matcher match12(graph()->NewNode(a_op, b0, m2)); CheckBaseWithIndexAndDisplacement(&match12, p1, 1, b0, NULL); // (M2 + B0) -> [p1, 1, B0, NULL] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match13(graph()->NewNode(a_op, m2, b0)); CheckBaseWithIndexAndDisplacement(&match13, p1, 1, b0, NULL); // (D15 + M2) -> [P1, 1, NULL, D15] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match14( graph()->NewNode(a_op, d15, m2)); CheckBaseWithIndexAndDisplacement(&match14, p1, 1, NULL, d15); // (M2 + D15) -> [P1, 1, NULL, D15] m2 = graph()->NewNode(m_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match15( graph()->NewNode(a_op, m2, d15)); CheckBaseWithIndexAndDisplacement(&match15, p1, 1, NULL, d15); // (B0 + S1) -> [p1, 1, B0, NULL] BaseWithIndexAndDisplacement64Matcher match16(graph()->NewNode(a_op, b0, s1)); CheckBaseWithIndexAndDisplacement(&match16, p1, 1, b0, NULL); // (S1 + B0) -> [p1, 1, B0, NULL] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match17(graph()->NewNode(a_op, s1, b0)); CheckBaseWithIndexAndDisplacement(&match17, p1, 1, b0, NULL); // (D15 + S1) -> [P1, 1, NULL, D15] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match18( graph()->NewNode(a_op, d15, s1)); CheckBaseWithIndexAndDisplacement(&match18, p1, 1, NULL, d15); // (S1 + D15) -> [P1, 1, NULL, D15] s1 = graph()->NewNode(s_op, p1, d1); BaseWithIndexAndDisplacement64Matcher match19( graph()->NewNode(a_op, s1, d15)); CheckBaseWithIndexAndDisplacement(&match19, p1, 1, NULL, d15); // (B0 + M4) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement64Matcher match20(graph()->NewNode(a_op, b0, m4)); CheckBaseWithIndexAndDisplacement(&match20, p1, 2, b0, NULL); // (M4 + B0) -> [p1, 2, B0, NULL] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement64Matcher match21(graph()->NewNode(a_op, m4, b0)); CheckBaseWithIndexAndDisplacement(&match21, p1, 2, b0, NULL); // (D15 + M4) -> [p1, 2, NULL, D15] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement64Matcher match22( graph()->NewNode(a_op, d15, m4)); CheckBaseWithIndexAndDisplacement(&match22, p1, 2, NULL, d15); // (M4 + D15) -> [p1, 2, NULL, D15] m4 = graph()->NewNode(m_op, p1, d4); BaseWithIndexAndDisplacement64Matcher match23( graph()->NewNode(a_op, m4, d15)); CheckBaseWithIndexAndDisplacement(&match23, p1, 2, NULL, d15); // (B0 + S2) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement64Matcher match24(graph()->NewNode(a_op, b0, s2)); CheckBaseWithIndexAndDisplacement(&match24, p1, 2, b0, NULL); // (S2 + B0) -> [p1, 2, B0, NULL] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match25(graph()->NewNode(a_op, s2, b0)); CheckBaseWithIndexAndDisplacement(&match25, p1, 2, b0, NULL); // (D15 + S2) -> [p1, 2, NULL, D15] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match26( graph()->NewNode(a_op, d15, s2)); CheckBaseWithIndexAndDisplacement(&match26, p1, 2, NULL, d15); // (S2 + D15) -> [p1, 2, NULL, D15] s2 = graph()->NewNode(s_op, p1, d2); BaseWithIndexAndDisplacement64Matcher match27( graph()->NewNode(a_op, s2, d15)); CheckBaseWithIndexAndDisplacement(&match27, p1, 2, NULL, d15); // (B0 + M8) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement64Matcher match28(graph()->NewNode(a_op, b0, m8)); CheckBaseWithIndexAndDisplacement(&match28, p1, 3, b0, NULL); // (M8 + B0) -> [p1, 2, B0, NULL] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement64Matcher match29(graph()->NewNode(a_op, m8, b0)); CheckBaseWithIndexAndDisplacement(&match29, p1, 3, b0, NULL); // (D15 + M8) -> [p1, 2, NULL, D15] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement64Matcher match30( graph()->NewNode(a_op, d15, m8)); CheckBaseWithIndexAndDisplacement(&match30, p1, 3, NULL, d15); // (M8 + D15) -> [p1, 2, NULL, D15] m8 = graph()->NewNode(m_op, p1, d8); BaseWithIndexAndDisplacement64Matcher match31( graph()->NewNode(a_op, m8, d15)); CheckBaseWithIndexAndDisplacement(&match31, p1, 3, NULL, d15); // (B0 + S3) -> [p1, 2, B0, NULL] BaseWithIndexAndDisplacement64Matcher match64(graph()->NewNode(a_op, b0, s3)); CheckBaseWithIndexAndDisplacement(&match64, p1, 3, b0, NULL); // (S3 + B0) -> [p1, 2, B0, NULL] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match33(graph()->NewNode(a_op, s3, b0)); CheckBaseWithIndexAndDisplacement(&match33, p1, 3, b0, NULL); // (D15 + S3) -> [p1, 2, NULL, D15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match34( graph()->NewNode(a_op, d15, s3)); CheckBaseWithIndexAndDisplacement(&match34, p1, 3, NULL, d15); // (S3 + D15) -> [p1, 2, NULL, D15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match35( graph()->NewNode(a_op, s3, d15)); CheckBaseWithIndexAndDisplacement(&match35, p1, 3, NULL, d15); // 2 INPUT - NEGATIVE CASES // (M3 + B1) -> [B0, 0, M3, NULL] BaseWithIndexAndDisplacement64Matcher match36(graph()->NewNode(a_op, b1, m3)); CheckBaseWithIndexAndDisplacement(&match36, m3, 0, b1, NULL); // (S4 + B1) -> [B0, 0, S4, NULL] BaseWithIndexAndDisplacement64Matcher match37(graph()->NewNode(a_op, b1, s4)); CheckBaseWithIndexAndDisplacement(&match37, s4, 0, b1, NULL); // 3 INPUT // (D15 + S3) + B0 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match38( graph()->NewNode(a_op, graph()->NewNode(a_op, d15, s3), b0)); CheckBaseWithIndexAndDisplacement(&match38, p1, 3, b0, d15); // (B0 + D15) + S3 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match39( graph()->NewNode(a_op, graph()->NewNode(a_op, b0, d15), s3)); CheckBaseWithIndexAndDisplacement(&match39, p1, 3, b0, d15); // (S3 + B0) + D15 -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match40( graph()->NewNode(a_op, graph()->NewNode(a_op, s3, b0), d15)); CheckBaseWithIndexAndDisplacement(&match40, p1, 3, b0, d15); // D15 + (S3 + B0) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match41( graph()->NewNode(a_op, d15, graph()->NewNode(a_op, s3, b0))); CheckBaseWithIndexAndDisplacement(&match41, p1, 3, b0, d15); // B0 + (D15 + S3) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match42( graph()->NewNode(a_op, b0, graph()->NewNode(a_op, d15, s3))); CheckBaseWithIndexAndDisplacement(&match42, p1, 3, b0, d15); // S3 + (B0 + D15) -> [p1, 2, b0, d15] s3 = graph()->NewNode(s_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match43( graph()->NewNode(a_op, s3, graph()->NewNode(a_op, b0, d15))); CheckBaseWithIndexAndDisplacement(&match43, p1, 3, b0, d15); // 2 INPUT with non-power of 2 scale // (M3 + D15) -> [p1, 1, p1, D15] m3 = graph()->NewNode(m_op, p1, d3); BaseWithIndexAndDisplacement64Matcher match44( graph()->NewNode(a_op, m3, d15)); CheckBaseWithIndexAndDisplacement(&match44, p1, 1, p1, d15); // (M5 + D15) -> [p1, 2, p1, D15] m5 = graph()->NewNode(m_op, p1, d5); BaseWithIndexAndDisplacement64Matcher match45( graph()->NewNode(a_op, m5, d15)); CheckBaseWithIndexAndDisplacement(&match45, p1, 2, p1, d15); // (M9 + D15) -> [p1, 3, p1, D15] m9 = graph()->NewNode(m_op, p1, d9); BaseWithIndexAndDisplacement64Matcher match46( graph()->NewNode(a_op, m9, d15)); CheckBaseWithIndexAndDisplacement(&match46, p1, 3, p1, d15); // 3 INPUT negative cases: non-power of 2 scale but with a base // ((M3 + B0) + D15) -> [m3, 0, b0, D15] m3 = graph()->NewNode(m_op, p1, d3); Node* temp = graph()->NewNode(a_op, m3, b0); BaseWithIndexAndDisplacement64Matcher match47( graph()->NewNode(a_op, temp, d15)); CheckBaseWithIndexAndDisplacement(&match47, m3, 0, b0, d15); // (M3 + (B0 + D15)) -> [m3, 0, b0, D15] m3 = graph()->NewNode(m_op, p1, d3); temp = graph()->NewNode(a_op, d15, b0); BaseWithIndexAndDisplacement64Matcher match48( graph()->NewNode(a_op, m3, temp)); CheckBaseWithIndexAndDisplacement(&match48, m3, 0, b0, d15); // ((B0 + M3) + D15) -> [m3, 0, b0, D15] m3 = graph()->NewNode(m_op, p1, d3); temp = graph()->NewNode(a_op, b0, m3); BaseWithIndexAndDisplacement64Matcher match49( graph()->NewNode(a_op, temp, d15)); CheckBaseWithIndexAndDisplacement(&match49, m3, 0, b0, d15); // (M3 + (D15 + B0)) -> [m3, 0, b0, D15] m3 = graph()->NewNode(m_op, p1, d3); temp = graph()->NewNode(a_op, b0, d15); BaseWithIndexAndDisplacement64Matcher match50( graph()->NewNode(a_op, m3, temp)); CheckBaseWithIndexAndDisplacement(&match50, m3, 0, b0, d15); } TEST_F(NodeMatcherTest, BranchMatcher_match) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); BranchMatcher matcher(branch); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); BranchMatcher matcher(branch); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* other = graph()->NewNode(common()->IfValue(33), branch); BranchMatcher matcher(branch); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); USE(other); } } TEST_F(NodeMatcherTest, BranchMatcher_fail) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); BranchMatcher matcher(branch); EXPECT_FALSE(matcher.Matched()); USE(if_true); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); BranchMatcher matcher(branch); EXPECT_FALSE(matcher.Matched()); USE(if_false); } { BranchMatcher matcher(zero); EXPECT_FALSE(matcher.Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); EXPECT_TRUE(BranchMatcher(branch).Matched()); EXPECT_FALSE(BranchMatcher(if_true).Matched()); EXPECT_FALSE(BranchMatcher(if_false).Matched()); } { Node* sw = graph()->NewNode(common()->Switch(5), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), sw); Node* if_false = graph()->NewNode(common()->IfFalse(), sw); EXPECT_FALSE(BranchMatcher(sw).Matched()); EXPECT_FALSE(BranchMatcher(if_true).Matched()); EXPECT_FALSE(BranchMatcher(if_false).Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_value = graph()->NewNode(common()->IfValue(2), branch); BranchMatcher matcher(branch); EXPECT_FALSE(matcher.Matched()); EXPECT_FALSE(BranchMatcher(if_true).Matched()); EXPECT_FALSE(BranchMatcher(if_value).Matched()); } } TEST_F(NodeMatcherTest, DiamondMatcher_match) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); EXPECT_EQ(merge, matcher.Merge()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); EXPECT_EQ(merge, matcher.Merge()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_false, if_true); DiamondMatcher matcher(merge); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); EXPECT_EQ(merge, matcher.Merge()); } } TEST_F(NodeMatcherTest, DiamondMatcher_fail) { Node* zero = graph()->NewNode(common()->Int32Constant(0)); { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_value = graph()->NewNode(common()->IfValue(1), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_value); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* if_value = graph()->NewNode(common()->IfValue(1), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_false, if_value); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_TRUE(matcher.Matched()); EXPECT_EQ(branch, matcher.Branch()); EXPECT_EQ(if_true, matcher.IfTrue()); EXPECT_EQ(if_false, matcher.IfFalse()); EXPECT_EQ(merge, matcher.Merge()); EXPECT_FALSE(DiamondMatcher(branch).Matched()); // Must be the merge. EXPECT_FALSE(DiamondMatcher(if_true).Matched()); EXPECT_FALSE(DiamondMatcher(if_false).Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* merge = graph()->NewNode(common()->Merge(3), if_true, if_false, graph()->start()); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); // Too many inputs to merge. } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch); Node* if_false = graph()->start(); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); } { Node* branch = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->start(); Node* if_false = graph()->NewNode(common()->IfFalse(), branch); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); } { Node* branch1 = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* branch2 = graph()->NewNode(common()->Branch(), zero, graph()->start()); Node* if_true = graph()->NewNode(common()->IfTrue(), branch1); Node* if_false = graph()->NewNode(common()->IfFalse(), branch2); Node* merge = graph()->NewNode(common()->Merge(2), if_true, if_false); DiamondMatcher matcher(merge); EXPECT_FALSE(matcher.Matched()); } } } // namespace compiler } // namespace internal } // namespace v8